1. Manuals
  2. Brands
  3. Omron Manuals
  4. Software
  5. CXONE-ALC-V4 - 10-2010
  6. Operation manual

Omron CXONE-ALC-V4 - 10-2010 Operation Manual

Hide thumbs Also See for CXONE-ALC-V4 - 10-2010:
Table of Contents

Advertisement

Quick Links

Download this manual
Cat. No. W418-E1-07
SYSMAC
CXONE-AL_C-V4/
CXONE-AL_D-V4
Face Plate Auto-Builder for NS
(Ver. 3.1)
OPERATION MANUAL

Advertisement

Table of Contents
loading

Related Manuals for Omron CXONE-ALC-V4 - 10-2010

Summary of Contents for Omron CXONE-ALC-V4 - 10-2010

  • Page 1 Cat. No. W418-E1-07 SYSMAC CXONE-AL_C-V4/ CXONE-AL_D-V4 Face Plate Auto-Builder for NS (Ver. 3.1) OPERATION MANUAL...
  • Page 3 CXONE-AL@@C-V4/ CXONE-AL@@D-V4 Face Plate Auto-Builder for NS (Ver. 3.1) Operation Manual Revised October 2010...
  • Page 5  OMRON, 2003 All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form, or by any means, mechanical, electronic, photocopying, recording, or otherwise, without the prior written permission of OMRON.

  • Page 7: Table Of Contents

    Uninstalling the Face Plate Auto-Builder for NS ....... . .
  • Page 8 6-13 ON/OFF Valve Manipulator (Block Model 221)........
  • Page 9 This manual describes the installation and operation of the CXONE-AL@@C-V4/CXONE-AL@@D-V4 Face Plate Auto-Builder for NS. The Face Plate Auto-Builder for NS is a software package used to automatically build project files for the CS1W-LC001 Loop Control Unit, the CS1W-LCB01 and CS1W- LCB05 Loop Control Boards, CS1D-CPU@@P Process-control CPU Units, and CJ1W-CPU@@P Loop Control CPU Units used with NS-series Programmable Terminals.
  • Page 10 NS5-series PT !WARNING Failure to read and understand the information provided in this manual may result in per- sonal injury or death, damage to the product, or product failure. Please read each section in its entirety and be sure you understand the information provided in the section and...
  • Page 11 WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY, NEGLIGENCE, OR STRICT LIABILITY. In no event shall the responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted. IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS...
  • Page 12 The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses of the products, nor is it intended to imply that the uses listed may be suitable for the products: •...
  • Page 13 PERFORMANCE DATA Performance data given in this manual is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of OMRON's test conditions, and the users must correlate it to actual application requirements.

  • Page 15: Precautions

    Application Precautions ........

  • Page 16: Intended Audience

    This manual provides information for using the Face Plate Auto-Builder for NS. Be sure to read this manual before attempting to use the Face Plate Auto- Builder for NS and keep this manual close at hand for reference during opera- tion.

  • Page 17: Overview

    Upgrades Made for Version 2.0 ........

  • Page 18: Features Of The Face Plate Auto-Builder For Ns

    Screens of the Loop Control Unit/Board and Process-control CPU Units. • When using a Loop Control Unit/Board and Process-control CPU Unit containing NS system version 4 or later, up to 100 loops of function block (e.g., PID Control) monitoring and tuning can be performed on an NS- series Programmable Terminal.

  • Page 19: System Requirements

    CPU Unit Note 1. CX-Process Tool Ver. 3.2 or later must be used to output any EM banks other than bank 0 to the area allocated for the Loop Control Board’s HMI. 2. Backup cannot be performed during operation with versions of the CS1W- LCB01/05 Loop Control Boards earlier than version 1.5 or CS1W-LC001...

  • Page 20: Upgrades Made For Version 2.0

    Project data can be built for the NS8. EM Multi-bank Support With CS-Process Ver. 3.2 or later, EM banks 0 to C can be specified for output to the Loop Control Board’s HMI. (Previously only bank 0 was supported.) With version 2.0, function block data using EM banks 0 to C created with CX- Process Ver.

  • Page 21: Upgrades Made For Version 3.0

    The functional changes made between version 3.0 and version 3.1 of the Face Plate Auto-Builder for NS are described in this section. Additional Support for Face plates can be built for the following function block in addition to the func- Function Block tion blocks supported for version 3.0.
  • Page 22 Section 1-6 Upgrades Made for Version 3.1...

  • Page 23: Setup

    Installation Method ..........2-1-1 Installation Precautions........2-1-2 Installing the Face Plate Auto-Builder for NS .

  • Page 24: Installation Method

    • Do not turn OFF the power or reset the personal computer during installa- tion. Doing so may damage data in the computer. • If Windows 2000 is used, be user to use Service Pack 4 or later. To check the Service Pack version number, from the Start Menu select Settings - Control Panel - System.
  • Page 25 Section 2-1 Step 3: Read the License Agreement thoroughly. If you agree with the terms, select I accept the terms of the license agreement, and click the Next But- ton to proceed. Step 4: Specify the drive and directory in which the program files will be installed.
  • Page 26 Installation Method Step 5: Select the program folder. Specify the location for the new shortcut to be added to the program folder under the Start Menu. Check the setting and select the Next Button. Step 6: Preparations for executing the installation have been completed.

  • Page 27: Uninstalling The Face Plate Auto-Builder For Ns

    Select Face Plate Auto-Builder for NS from the list of applications, and click the Change/Remove Button. Step 2: Click the OK Button. The Face Plate Auto-Builder for NS will be unin- stalled. Step 3: When the uninstall process has been completed, the following screen...
  • Page 28 Uninstalling the Face Plate Auto-Builder for NS Section 2-2...

  • Page 29: Basic Operation Flow

    Basic Operation Flow ........

  • Page 30: Section 4

    Compile CSV Tag Files Using CX-Process Tool (Refer to the CX-Process Tool Operation Manual (W372).) Use the CX-Process Tool to compile (create) a CSV tag file for the Loop Control Unit/Board. 1. Use the CX-Process Tool to create a program for the Loop Control Unit/Board.

  • Page 31: Operations

    Merging Projects ..........4-2-1 Merge Using the CX-Designer ......4-2-2...

  • Page 32: Basic Operation

    Required Settings CSV Tag File Set the folder location and file name of the CSV tag file from which the project will be built. Click the Browse (1) Button to display a dialog box for selecting the CSV tag file.
  • Page 33 If version 2 is selected, up to 69 Unit and Scale No. data items will be created from the first number tag set here. If version 4 or version 6.6 is selected, up to 207 Unit and Scale No.
  • Page 34 Specify the first number allocated to the data log group in the NS-series PT. The maximum value of the data log used by the Face Plate Auto-Builder for NS is 100 for NS system version 4 and higher and 32 for other versions.
  • Page 35 CX-Process project that uses multiple nodes. With the NS-series PT, nodes are registered as hosts. Host settings are described next. 1,2,3... 1. Select the host to be set in the Host Registration Dialog Box and click the Settings Button. The following dialog box will be displayed.
  • Page 36 Start the system, and perform monitoring/tuning of the Loop Control Unit/ Board from the NS-series PT. Note An error message saying that the file is too large and to check the product data (0088) may be displayed when transferring a project from the CX-...

  • Page 37: Merging Projects

    3. Press the Ctrl + V Keys. Alternatively, right-click and select Paste from the pop-up menu. 4. Specify the number of the first screen after pasting, then click the OK But- ton. 5. If the Reuse screen with sheet option has been set, specify the number of the first sheet after pasting, and then click the OK Button.

  • Page 38: Merging Using The Ns Project Merge Tool

    4. Alternatively, drag the part from the copy source CX-Designer project to the copy destination CX-Designer project. 5. If multiple hosts are registered to the project at the reuse destination, se- lect an appropriate host after copying for the communications addresses used with the parts.
  • Page 39 1. Delete all of the SMART Active Parts from project B. 2. Save project B. 3. Merge the two projects with project A as the base project and project B as the merge project. 4. Paste the SMART Active Parts into the merged project.
  • Page 40 Merging Projects Section 4-2...

  • Page 41: Basic Specifications Of Created Screens

    Tuning Screen Realtime Trends ........

  • Page 42: Created Screens

    Control Screens display a row of multiple face plates. Control Screens are created from the beginning of the CSV tag file for up to 100 loops for system version 4 or later and for up to 32 loops for other system versions.
  • Page 43 Number Order) bers. (The screen number offset can be specified between 0 and 3,799 (Sys- tem Version 2), 0 and 3,599 (System Version 4 or later). The default is 0.) Screen Details...

  • Page 44: Screen Titles

    Tuning Screens. Up to 100 data logs for system ver- sion 4 or later and up to 32 data logs for other system versions are used and data logs are created from the following details, according to the order the face plates are built.

  • Page 45: Percent Data

    CSV tag file. Up to 66 sets of these items can be created for system version 2.0 and up to 207 can be created for system version 4.0 (632 if Segment Program 3 blocks are set).

  • Page 46: Read Address And Write Address

    0.01. Read Address and Write Address Even if the tag ITEM is the same for the read address that is read and dis- played from the PLC to the NS-series PT and the write address that is written to the PLC from the NS-series PT, the addresses are different.

  • Page 47: Work Memory

    Work Memory Work Memory The Face Plate Auto-Builder for NS creates the following macros using the internal memory in the PT for purposes such as checking statuses of changed SP data and changed MV data. PT memory Application and places used $B32760 Used to temporarily read tag ITEM R/L_SW.
  • Page 48 SP, and SPU (for 014 Batch Flowrate Capture). Used in the macro for the Numeral Display and Input object of the face plate. Note Do not use the above areas of the internal memory in the PT for any other purpose.

  • Page 49: Creation Screens

    Basic PID (Block Model 011)........
  • Page 50 6-17 Blended PID (Block Model 013)........

  • Page 51: Basic Pid (Block Model 011)

    The Tuning Screen Button is not provided in the face plates in the Tuning Screen. 2: Tag Name The tag name in the CSV tag file is set as a label and displayed as a Text object (up to 16 characters). 3: Tag Comment The tag comment in the CSV tag file is set as a label and displayed as a Text object (up to 16 characters).
  • Page 52 The fixed string “PV” is displayed as a Text object. 8: PV Numerical Value Display A Numeral Display and Input object is used to display the value of tag ITEM PV (ITEM 007) in engineering units. A Control Flag is set to disable input.
  • Page 53 H_SP (ITEM 009) HH (High/high alarm) HH_SP (ITEM 008) • LL and HH are displayed in red, and L and H are displayed in light blue (color code 219). • The maximum value displayed is 11500 (115%) and the minimum value displayed is −1500 (−15%).
  • Page 54 WRITECMEM ([R/L_SW],$B32760,1) ; WRITECMEM ([A/M_SW],$B32761,1) ; A Control Flag is used to reference the tag ITEM CAS_SET (ITEM 024) and if the value is 1, the object is set for no display and to disable input. 17: Switch to AUTO Button This button is set as a momentary ON/OFF Button using a Simple Rectangle (Type 3), and the display color is determined according to the following table.
  • Page 55 A Select Shape graphic is used for the Button face display. The upper and lower limits of the data range are −15% to 115%. These but- tons are not set to loop back when the upper or lower limit is exceeded.
  • Page 56 21: MV Bar Display The value for tag ITEM MV (ITEM 089) is displayed as a Level Meter object. The leftmost side is 0%, the rightmost side is 100%, and the color of the bar is blue (color code 209).
  • Page 57 Basic PID (Block Model 011) Section 6-1 The increment is set to 0, and actual increase or decrease of the value is per- formed from the macro. Button Increment 100 (1%) 10 (0.1%) −10 (−0.1%) −100 (−1%) A Select Shape graphic is used for the Button display.

  • Page 58: Tuning Screens

    Basic PID (Block Model 011) Section 6-1 The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-1-2 Tuning Screens The following screen is a Tuning Screen for Basic PID built using the Face...
  • Page 59 AT is executed/stopped. OK?” The read address is set as the display address and the write address is set as write address 1. 2: Alarm Set Values The alarm set values are displayed and set with engineering units. The follow- ing table shows the tag ITEMs used for setting alarm set values.
  • Page 60 MH (High MV limit) Percent data ML (Low MV limit) Percent data MV index position Percent data Data is written to the write address of each tag ITEM using a Before Writing Numeral/String macro, as follows: $W2047=GETNUMVAL () ; WRITECMEM ([P/I/D/MH_LMT/ML_LMT/MV_IDX],$W2047,1) ;...
  • Page 61 When the value of the decimal point position for the CSV tag file is 0, the scale setting number is set to not be changed, and when the value is 1, the scale setting is set to a factor of 0.1.

  • Page 62: Advanced Pid (Block Model 012)

    Section 6-2 Advanced PID (Block Model 012) The unit display for the alarm set values is restricted to a maximum of four characters. Advanced PID (Block Model 012) This section describes only the differences between the Advanced PID and Basic PID (Block Model 011). For details on the areas not covered here, refer to 6-1 Basic PID (Block Model 011).

  • Page 63: Tuning Screens

    Man. reset MRT (ITEM 057) A Numeral Display and Input is used to create this field, and a ten-key pad is displayed when the field is touched. The following table shows the upper and lower limits of the setting range.

  • Page 64: Two-Position On/Off (Block Model 001)

    Manual reset Two-position ON/OFF (Block Model 001) This section describes only the differences between the 2-position ON/OFF and Basic PID (Block Model 011). For details on the areas not covered here, refer to 6-1 Basic PID (Block Model 011). 6-3-1...
  • Page 65 The button surface is displayed according to the Select Shape graphic. When the button is touched, the tag ITEM A/M_SW (ITEM 086) is referenced, and if the value is 1, a message is displayed indicating that setting is not pos- sible, and setting is disabled.

  • Page 66: Tuning Screens

    Section 6-3 Two-position ON/OFF (Block Model 001) This field is created as an ON/OFF Button using a Select Shape of type 2 to switch to display of PV error indication characters. Control Flag input is dis- abled. 4: Alarm Status Display MH and ML are not provided with 2-position ON/OFF.

  • Page 67: Three-Position On/Off (Block Model 002)

    The following screen is a Tuning Screen for 2-position ON/OFF built using the Face Plate Auto-Builder for NS in a 640×480 screen resolution. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.
  • Page 68 OFF MVL (ITEM 095). These buttons are created as momentary ON/OFF Buttons using a Select Shape of type 1, and with no write address set. (Macros are used to write data.) The button is displayed as a Select Shape graphic.
  • Page 69 PV_ABN (ITEM 019) (No characters displayed.) PV error indication This field is created as an ON/OFF Button using a Select Shape of type 1 and switches to display PV error indication characters. Control Flag input is dis- abled. 4: Alarm Status Display MH and ML are not provided with 3-position ON/OFF.

  • Page 70: Tuning Screens

    Section 6-4 Three-position ON/OFF (Block Model 002) The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-4-2 Tuning Screens The Tuning Screens for 3-position ON/OFF are almost the same as for Basic PID (Block Model 011), except for the following differences.

  • Page 71: Indication And Operation (Block Model 032)

    Section 6-5 Indication and Operation (Block Model 032) The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. A setting field for each parameter is not provided, so up to eight characters can be displayed for the unit character string for 3-position ON/OFF, instead of the four characters for Basic PID.
  • Page 72 Display A/M_SW (ITEM 086) AUTO This field is created as an ON/OFF Button using a Select Shape of type 2 and switches to display AUTO/MAN characters. Control Flag input is disabled. 2: Alarm Status Display Indication and Setting does not provide a deviation alarm, so there is no dis- play.
  • Page 73 Display color A/M_SW (ITEM 086) Yellow The label displays “AUTO” in the rough font. By setting the following Touch OFF Timing macro, operation will switch to Auto mode when touched. $B32761=1; WRITECMEM ([A/M_SW],$B32761,1) ; This button is always displayed, without setting a Control Flag to disable the display and input.

  • Page 74: Tuning Screens

    Section 6-5 Indication and Operation (Block Model 032) The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-5-2 Tuning Screens The Tuning Screens for Indication and Setting are almost the same as for Basic PID (Block Model 011), except that it does not provide PID or AT.

  • Page 75: Indicator (Block Model 034)

    Face Plate Auto-Builder for NS in a 640×480 screen reso- lution. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. Indicator (Block Model 034) This section describes only the differences between the Indicator and Basic PID (Block Model 011).
  • Page 76 (No characters dis- played.) PV error indication These buttons are ON/OFF Buttons using a Select Shape of type 1 and switch to display the PV error indication characters. Control Flag input is disabled. Indicator does not display an MV error indication.

  • Page 77: Tuning Screens

    Section 6-6 Indicator (Block Model 034) The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-6-2 Tuning Screens The Tuning Screens for Indicator are almost the same as for Basic PID (Block Model 011), except that it does not provide SP or MV functions, and is used as a PV Indicator Operator Interface.

  • Page 78: Segment Program 2 (Block Model 157)

    The following screen is a Tuning Screen for the Indicator face plate built using the Face Plate Auto-Builder for NS in a 640×480 screen resolution. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 79: Face Plates

    The fixed string “Y1” is displayed as a Text object. 5: Y1 Numeral Display A Numeral Display and Input object is used to display in engineering units the value for tag ITEM Y1 (ITEM 008: Program input). A Control Flag is set to dis- able input. 6: Alarm Setting Segment Program 2 does not provide a bar graph for the alarm settings.
  • Page 80 The button is built using a momentary ON/OFF Button with a Simple Rectan- gle (Type 2). The write address for tag ITEM S3 (ITEM 017) is set as the write address, and the read address for tag ITEM U10 (ITEM 019) is set as display address 1.
  • Page 81 Segment Program 2 (Block Model 157) The following macro is set as a Touch OFF Timing macro, and when touched, the fixed value 0 is written to the write address of tag ITEM S1 (ITEM 013). $B32766=0; WRITECMEM ([S1],$B32766,1) ;...
  • Page 82 Face Plate Auto-Builder for NS in a 640×480 screen resolution. The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 83: Tuning Screens

    (ITEM “OK?” input 020) The read address is set in the display address and the write address is set in write address 1. 2: Alarm Setting/Parameters Segment Program 2 does not provide alarm settings or parameter settings. 3: Realtime Trend Graph Tag ITEM X1 (ITEM 007) and tag ITEM Y1 (ITEM 008) are displayed as graphs.

  • Page 84: Detail Setting Screens

    The following screen is the Tuning Screen for Segment Program 2 built using Face Plate Auto-Builder for NS in a 640×480 screen resolution. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.
  • Page 85 The button writes the settings made on the screen to the Loop Control Board/ Unit. Note Be sure to check the affect on the controlled system of any changes to be made before actually writing them to the Loop Control Board/Unit.

  • Page 86: Indication And Setting (Block Model 031)

    6-8-1 Face Plates The face place for the Indication and Setting Block is almost the same as the one for the Basic PID Block (Block Model 011), except that the Indication and Setting Block face plate does not have the MV-related functions and the SP...
  • Page 87 Indication and Setting (Block Model 031) Section 6-8 1: Status Display Either CAS or LOCAL status is displayed. The value of tag ITEM R/L_SW determines the status character string display. Display R/L_SW (026) LOCAL This button is created as an ON/OFF Button using a Simple Rectangle (Type 1) to switch the label ON/OFF.

  • Page 88: Tuning Screens

    Face Plate Auto-Builder for NS in a 640×480 screen resolution. The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 89: Ratio Setting (Block Model 033)

    Face Plate Auto-Builder for NS in a 640×480 screen reso- lution. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. Ratio Setting (Block Model 033) This section describes only the differences between the Ratio Setting Block and Basic PID Block (Block Model 011).
  • Page 90 • Communications address: Set K1 (054). The lower limit of the scale fixes the label at 0.00 is displayed in the rough font. The following diagram shows a Ratio Setting face plate built using the Face Plate Auto-Builder for NS in a 640×480 screen resolution.

  • Page 91: Tuning Screen

    Section 6-9 Ratio Setting (Block Model 033) The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-9-2 Tuning Screen The parameters required to operate the Ratio Setting Block can be set on this tuning screen.
  • Page 92 ML (Low MV limit) Percent data MV index position Percent data Data is written to the write address of each tag ITEM using a Before Writing Numeral/String macro, as follows: $W2047=GETNUMVAL(); WRITECMEM([K1/A1/B1/MH_LMT/ML_LMT/MV_IDX],$W2047,1); The following screen is a Tuning Screen for a Ratio Setting face plate built...

  • Page 93: High/Low Alarm (Block Model 111)

    High/Low Alarm (Block Model 111) Section 6-10 The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-10 High/Low Alarm (Block Model 111) This section describes only the differences between the High/Low Alarm Block and Basic PID Block (Block Model 011).
  • Page 94 The numeral display for X1 uses an engineering unit. 3: H (High Alarm SV) Numerical Value Display and Input A Numeral Display and Input object is used to display the value of tag ITEM A1 (ITEM 009) in engineering units. Touch this field to display a ten-key pad below it.

  • Page 95: Timer (Block Model 205)

    Timer (Block Model 205) 5: Alarm Setting The alarm set values are displayed as a Bar graph. The set values for the H and L alarms are displayed from right to left. The set value for each alarm is displayed along with the X1 bar display on the right side of the face plate, with the top value as 115% and the bottom value as −15%.

  • Page 96: Face Plates

    The Timer face plate does not provide a status display. 2: Y1 Value Display A Numeral Display and Input object is used to display the value of tag ITEM Y1 (ITEM 009). A Control Flag is set to disable input.
  • Page 97 7: START Button When this button is touched, the write address of tag ITEM S1 (ITEM 011) is set to 1. The value of tag ITEM S1 (ITEM 011) is referenced to set the display color, as shown in the following table.
  • Page 98 9: CONT Button When this button is touched, the write address of tag ITEM S2 (ITEM 012) is set to 0. The value of tag ITEM S2 (ITEM 012) is referenced to set the display color, as shown in the following table.

  • Page 99: Counter (Block Model 208)

    Auto-Builder for NS in a 640×480 screen resolution. The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-12 Counter (Block Model 208) This section describes only the differences between the Counter Block and Basic PID Block (Block Model 011).

  • Page 100: Face Plates

    Counter (Block Model 208) 6-12-1 Face Plates The Counter counts ON/OFF transitions of a contact input and indicates when the count exceeds the preset count SV. A prediction SV can be set for early notification. 1: Status Display The Counter face plate does not provide a status display.
  • Page 101 7: START Button When this button is touched, the write address of tag ITEM S1 (ITEM 010) is set to 1. The value of tag ITEM S1 (ITEM 010) is referenced to set the display color, as shown in the following table.

  • Page 102: On/Off Valve Manipulator (Block Model 221)

    Section 6-13 ON/OFF Valve Manipulator (Block Model 221) The following macro is set as a Touch OFF Timing macro, and when touched, the fixed value 0 is written to the write address of tag ITEM S1 (ITEM 010). $B32766=0; WRITECMEM([S1],$B32766,1);...

  • Page 103: Face Plates

    1: Status Display Either AUTO or MAN status is displayed. The value of tag ITEM S1 deter- mines which status character string is displayed. Display S1: A/M Switch Input (086)
  • Page 104 By setting the following Touch OFF Timing macro, operation will turn the valve ON when touched. When the button is touched, tag ITEM S1 is referenced and if S1 = 1, the message “Could not set.” will be displayed and the setting will not be accepted.
  • Page 105 By setting the following Touch OFF Timing macro, operation will turn the valve OFF when touched. When the button is touched, tag ITEM S1 is referenced and if S1 = 1, the message “Could not set.” will be displayed and the setting will not be accepted.
  • Page 106 Section 6-13 ON/OFF Valve Manipulator (Block Model 221) $B32760=0; WRITECMEM([R/L_SW],$B32760,1); 6: FIELD Selection Display A Bit Lamp indicates the control site and the lamp is red when control is onsite (in the field). Display color S4: Control Site Input (085) Yellow...

  • Page 107: Motor Manipulator (Block Model 222)

    Face Plate Auto-Builder for NS in a 640×480 screen resolution. The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 108: Face Plates

    1) to switch the label ON/OFF. Control Flag input is disabled. 2: CT Input Display A Numeral Display and Input object is used to display the value of tag ITEM X1 (ITEM 032) in engineering units. Control Flag input is disabled.

  • Page 109: Reversible Motor Manipulator (Block Model 223)

    Displays the CT input high alarm SV in a bar graph. The alarm SVs are dis- played along with the CT input bar at the right side of the face plate, with a maximum value of 115% and a minimum value of −15%.

  • Page 110: Face Plates

    By setting the following Touch OFF Timing macro, the forward rotation com- mand is sent when touched. When the button is touched, tag ITEM S1 is ref- erenced and if S1 = 1, the message “Could not set.” will be displayed and the setting will not be accepted.
  • Page 111 WRITECMEM([S4],$B32760,1); WRITECMEM([S6],$B32761,1); When the button is touched, tag ITEM S1 is referenced and if S1 = 1, the but- ton input is prohibited. To display a fixed yellow button, a momentary ON/OFF Button is created using a Simple Rectangle (Type 2) and placed over the “OFF”...
  • Page 112 Set tag ITEM S1 as an indirect specification for the control flag input enable and display/hide settings for this overlapping object. The button input is also prohibited when S7 = 1, just like S1. To display a fixed yellow button, a momentary ON/OFF Button is created using a Simple Rect- angle (Type 2) and placed over the “OFF”...
  • Page 113 By setting the following Touch OFF Timing macro, the reverse rotation com- mand is sent when touched. When the button is touched, tag ITEM S1 is ref- erenced and if S1 = 1, the message “Could not set.” will be displayed and the setting will not be accepted.
  • Page 114 A Select Shape graphic is used for the Button face display. 6: REV Answer Input Display A lamp indicates the status of the REV answer input and the lamp is red when the input is ON. The bit lamp is set as a round single-line lamp with the following display col- ors.

  • Page 115: Motor Opening Manipulator (Block Model 224)

    6-16 Motor Opening Manipulator (Block Model 224) This section describes only the differences between the Motor Opening Manipulator Block and Basic PID Block (Block Model 011). For details on the areas not covered here, refer to 6-1 Basic PID (Block Model 011).
  • Page 116 L: Opening input low alarm output (036) output (037) This button is created as an ON/OFF Button using a Select Shape of type 3 to switch the graphic displaying the NR, H, or L characters. Control Flag input is disabled.
  • Page 117 7: Close Manipulation Output Display A lamp indicates the status of the close manipulation output and the lamp is red when the output is ON. The bit lamp is set as a round single-line lamp with the following display col- ors. Display color...

  • Page 118: Blended Pid (Block Model 013)

    Blended PID (Block Model 013) The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-17 Blended PID (Block Model 013) This section describes only the differences between the Blended PID Block and Basic PID Block (Block Model 011).
  • Page 119 This field displays the status of alarms that have occurred. The Bit Lamp object is used to display a normal status in gray and an alarm status in red. The text of each alarm is displayed in the rough font. The following table...
  • Page 120 Face Plate Auto-Builder for NS in a 640×480 screen resolution. The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 121: Tuning Screens

    6-17-2 Tuning Screens This section describes only the differences between the tuning screens in the Blended PID Block and Basic PID Block (Block Model 011). For details on the areas not covered here, refer to 6-1-2 Tuning Screens. 1: Parameter Settings These fields are used to display and set each parameter for blended PID con- trol.
  • Page 122 Percent data ML (Low MV limit) Percent data MV index position Percent data Data is written to the write address of each tag ITEM using a Before Writing Numeral/String macro, as follows: $W2047=GETNUMVAL(); WRITECMEM([DEV_Q,K1/P/I/D/MH_LMT/ML_LMT/MV_IDX],$W2047,1); 2: Realtime Trend Graph Tag ITEMs Y1, Y2, and MV are displayed in graph format. The following table shows the characteristics of each tag ITEM's line.

  • Page 123: Batch Flowrate Capture (Block Model 014)

    Section 6-18 Batch Flowrate Capture (Block Model 014) The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution. 6-18 Batch Flowrate Capture (Block Model 014) This section describes only the differences between the Batch Flowrate Cap- ture Block and Basic PID Block (Block Model 011).
  • Page 124 A Numeral Display and Input object is used to display the set point (SP), which is calculated by multiplying the batch accumulated value (rightmost 4 digits in SP and leftmost 4 digits in SPU) and tag ITEM PR. The address set in the communications address is a working address.
  • Page 125 Section 6-18 Batch Flowrate Capture (Block Model 014) RETURN(1); 6: Main Batch Output Display The status of the main batch output is displayed with a bit lamp, as shown in the following table. Display color U1 (038) Green 7: Pre-batch Output Display The status of the pre-batch output is displayed with a bit lamp, as shown in the following table.
  • Page 126 This button disables the run command. When this button is touched, the write address of tag ITEM S1 is set to 0. The value of tag ITEM S1 is referenced to set the display color, as shown in the following table.
  • Page 127 This button specifies the interrupt (pause) command. When this button is touched, the write address of tag ITEM S2 is set to 1. The value of tag ITEM S2 is referenced to set the display color, as shown in the following table.

  • Page 128: Tuning Screens

    MV index position MV_IDX (098) Numeral Display and Input objects are used to create these fields, and a ten- key pad is displayed when a field is touched. The following table shows the upper and lower limits of the setting ranges.
  • Page 129 • Characters displayed: 5 integer digits and 1 tenths digit • Units and scaling: Set to ×0.001 during conversion. Data is written to the write address of each tag ITEM using a Before Writing Numeral/String macro, as follows: • Macro for the overrun, pre-batch, and flowrate limitation settings: $W2047=BCD(GETNUMVAL()/1000);...
  • Page 130 Batch Flowrate Capture (Block Model 014) Section 6-18 The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 131: Segment Program 3 (Block Model 158)

    The fixed text “X1” is displayed as a label. 3: X1 Numerical Value Display A Numerical Display and Input object is used to display the value of tag ITEM X1 (ITEM 007). The reference input value is displayed in engineering units. A...
  • Page 132 Y2L (ITEM 009) (elapsed time output (low byte)) as the low byte, and the value of tag ITEM Y2H (ITEM 010) (elapsed time output (high byte)) as the high byte, with the values divided by 10. A Control Flag is set to disable input. 8: Unit Display The unit (engineering units) is displayed (up to 8 single-byte characters).
  • Page 133 Section 6-19 13: ADV Button When touched, 1 is set in the write address for tag ITEM S4 (ITEM 018: Step command). Tag ITEM S4 (ITEM 018) is displayed in yellow when the value is 0, and in red when the value is 1.
  • Page 134 Segment Program 3 (Block Model 158) 16: CONT Button When touched, 0 is set in the write address for tag ITEM S2 (ITEM 014: Hold switch). Tag ITEM S2 (ITEM 014) is referenced and the color is displayed according to the following table.
  • Page 135 Face Plate Auto-Builder for NS in a 640×480 screen resolution. The whole face is built using 458×142 dots. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 136: Tuning Screens

    AT com- mand will change the MV. OK?” The read address is set in the display address and the write address is set in write address 1. 2: Alarm Setting/Parameters Segment Program 3 does not provide alarm settings or parameter settings.
  • Page 137 Tuning Screen for Segment Program 3 built using Face Plate Auto-Builder for NS in 640×480 screen resolution. The display and operation of each object in the face plate is the same as the version for 800×600 screen resolution.

  • Page 138: Program Setting Screens

    This button reads the step data from the Loop Control Board/Unit. The steps displayed on the screen indicate the range of steps that can be read. Any settings made on the screen will be discarded if the Read Button is clicked before clicking the Write Button.
  • Page 139 This button reads the bank data from the Loop Control Board/Unit. The num- ber of banks displayed on the screen indicate the range of banks that can be read. Any settings made on the screen will be discarded if the Read Button is clicked before clicking the Write Button.
  • Page 140 6: Bank Data Display and Setting Buttons These buttons are used to display and set bank data. The P, I, D, MH, and ML parameters and the set values from 1 to 5 are displayed, and can be set, for each bank.
  • Page 141 Step Data Graph Display Screen). Using percentage data, either a −300.0 to 300.0 (Scale 1) or a 0 to 100.0 (Scale 2) can be selected. When using engineering units, the percentage data is converted to, and displayed in, engineering units based on Segment Program 3 scale data.
  • Page 142 Section 6-19 Segment Program 3 (Block Model 158)

  • Page 143: Revision History

    Revision History A manual revision code appears as a suffix to the catalog number on the front cover of the manual. Cat. No. W418-E1-07 Revision code The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version.
  • Page 144 Revision History...

This manual is also suitable for:

Cxone-al**d-v4Face plate auto-builder for ns 3.1

Table of Contents